Statistical MechanicsUnlike most other texts on the subject, this clear, concise introduction to the theory of microscopic bodies treats the modern theory of critical phenomena. Provides up-to-date coverage of recent major advances, including a self-contained description of thermodynamics and the classical kinetic theory of gases, interesting applications such as superfluids and the quantum Hall effect, several current research applications, The last three chapters are devoted to the Landau-Wilson approach to critical phenomena. Many new problems and illustrations have been added to this edition. |
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Page 380
... superfluid . In contradistinction , the phase He I is pure normal fluid . It is imagined that we may attribute characteristic mass densities p1 and p , respectively to the normal fluid and the superfluid . If the liquid flows , we may ...
... superfluid . In contradistinction , the phase He I is pure normal fluid . It is imagined that we may attribute characteristic mass densities p1 and p , respectively to the normal fluid and the superfluid . If the liquid flows , we may ...
Page 400
... superfluid is q . Therefore Vw , is the group velocity of the excitation with respect to the superfluid . By ( 18.74 ) , u is the average group velocity of an excitation with respect to the superfluid . At sufficiently low temperatures ...
... superfluid is q . Therefore Vw , is the group velocity of the excitation with respect to the superfluid . By ( 18.74 ) , u is the average group velocity of an excitation with respect to the superfluid . At sufficiently low temperatures ...
Page 469
... Superfluid , 380 , 401 Superfluid flow , 406ff . Superfluidity , 397 , 405ƒƒ . Supersaturation , 38 Surface tension , coefficient of , 12 , 38 T dS equations , 22 Temperature , absolute scale , 13 ideal gas , 5 in kinetic theory of ...
... Superfluid , 380 , 401 Superfluid flow , 406ff . Superfluidity , 397 , 405ƒƒ . Supersaturation , 38 Surface tension , coefficient of , 12 , 38 T dS equations , 22 Temperature , absolute scale , 13 ideal gas , 5 in kinetic theory of ...
Contents
THE LAWS OF THERMODYNAMICS | 3 |
SOME APPLICATIONS OF THERMODYNAMICS | 33 |
THE PROBLEM OF KINETIC THEORY | 55 |
Copyright | |
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absolute zero approximation assume assumption atoms average becomes Boltzmann Bose calculate called canonical ensemble classical collision complete condition consider constant contains coordinates corresponds defined definition denoted density depends derivation determined discussion distribution effect eigenvalues elements energy ensemble entropy equal equation equilibrium excited exists expansion external fact Fermi field finite given ground Hamiltonian heat Hence ideal independent integral interaction lattice levels limit liquid magnetic mass matrix mean molecular molecules momentum n₁ obtain occupation operator particles partition function phase physical positive possible potential pressure probability problem properties quantity quantum quantum mechanics region represented respectively result satisfies shown in Fig solution specific statistical mechanics temperature theorem theory thermodynamic transformation transition unit V₁ V₂ valid volume wave function